Sexual selection in the ring-tailed lemur (Lemur catta): female choice, male mating strategies, and male mating success in a female dominant primate

Parga, Joyce Ann

28 August 2008

Not available

Ring-tailed lemur--Sexual behavior

Sexual selection in animals

Reproductive tactics in male grey mouse lemurs (Microcebus murinus, J.F. Miller 1777) in Northwestern Madagascar

Schmelting, Barthel.

January 2001

Thesis (Ph. D.)--Institute of Zoology, School of Veterinary Medicine Hannover, 2001. / Title from title screen (viewed February 21, 2008). Includes bibliographical references (p. 115-139).

An evaluation of the natural and provisioned feeding rates of semi-free ranging ringtailed lemurs (Lemur catta) on St. Catherines Island, GA /

Coleman, Layla B.

January 1900

Thesis (M.A.)--Texas State University-San Marcos, 2007. / Vita. Appendix: leaves 40-42. Includes bibliographical references (leaves 43-47 ).

Exploring the Impacts of Major Histocompatibility Complex Variation on Fitness in the Ring-tailed Lemur (<italic>Lemur catta</italic>): Parasite Resistance, Survival, Mate Choice and Olfactory Ornamentation, and Reproduction

Grogan, Kathleen Elizabeth

January 2014

<p>The threats of human encroachment and climate change are increasing and understanding the interplay between genetic diversity, fitness, and ecological variation has become critical for predicting adaptive responses and species extinction risk. Decreasing genetic diversity, owing to population decline or inbreeding, can be detrimental at the level of the individual, population, or species. One of the major challenges for evolutionary and conservation biologists is identifying the specific genetic components that influence inter-individual variation in fitness remains. As a direct link between genetic-make up and individual fitness, the Major Histocompatibility Complex (MHC) is critical to the activation of the adaptive immune system. Biologist have suggested that in addition to influencing an individual's health, variation at the MHC may be related to an individual's survival and reproductive success. Here, I test this hypothesis using two populations of ring-tailed lemurs (<italic>Lemur catta</italic>) at long-term study sites to achieve individual and population-level comparisons of MHC diversity and to integrate new genetic technology with behavioral, ecological, and environmental data. First, I address the difficulty of genotyping large populations at hypervariable genes by using next generation sequencing and suggest improvements to current methods. Second, I describe patterns of variation at the MHC-DRB 2nd exon, including diversity between alleles, individuals, and populations. Next, I examine the relationship between MHC-DRB diversity and measures of immunocompetence, parasitism, and survival within a broader framework of ecological variability across captive and wild conditions. Because the MHC is also thought to be important in mate choice and reproduction, I use an experimental approach in captive individuals to investigate possible mechanisms of MHC-based signaling through olfactory communication. Lastly, I link a female's MHC genotype to her reproductive success in the wild and explore if this relationship is altered by environmental stressors. The results of this dissertation emphasize the increasing feasibility of using genetic approaches to investigate the fitness correlates of genetic diversity non-model systems. These advances are critical for future studies and the integration of behavioral, ecological, and genetic perspectives in semi-natural and wild environments.</p> / Dissertation

Biology

Animal behavior

Genetics

Ecological variation

Lemur catta

MHC

New insights on regulation of LMTK2, a membrane kinase integrating pathways central to neurodegeneration.

Rattray, Marcus

05 1900

Yes

Lemur tyrosine kinase-2 (LMTK2)

Regulation

Membrane kinase

Neurodegeneration

I like to move (it) - Use of outdoor space in a mixed exhibit of ring-tailed lemurs (Lemur catta) and red ruffed lemurs (Varecia rubra) at Furuvik Zoo

Robinson González, Gabriel Aritz

January 2021

By studying how captive animals use outdoor space, we can determine which areas fulfill their biological and behavioral needs to improve enclosure design for animal welfare and visitor experience. The aim of the study was to determine the differential use of outdoor space in a mixed exhibit of captive ring-tailed lemurs (Lemur catta) and red ruffed lemurs (Varecia rubra), and to assess both the effect of adding environmental enrichment and possible visitor and meteorological effects on the lemurs’ use of space and behavior. For one month, five-minute interval scan sampling was used to record lemur location and behavior, as well as the meteorological conditions and presence of zoo visitors in the lemurs’ outdoor enclosure. That baseline was followed by four alternating two-week periods of food or structural enrichment, both with and without visitors. Enrichment increased the lemurs’ use of the enriched sectors, decreased resting, and increased locomotion. Structural enrichment increased their exploratory behaviors and stimulated arboreal locomotion. Both species preferred sunny and warm conditions for sunbathing and resting, while moving more around the enclosure in cooler and cloudier weather. The visitor effect on the lemurs’ use of space was weaker than the effects of enrichment and meteorological conditions. The availability of areas to hide and possible habituation to humans may have played a role in the reduced visitor effect. The results of the study showed inter-specific differences in the lemurs’ use of space and behavior and a complex combined effect of enrichment, visitor presence and meteorological conditions.

ring-tailed lemurs (Lemur catta)

red ruffed lemurs (Varecia rubra)

zoo mixed-exhibit

use of outdoor enclosure

lemur behavior

environmental enrichment

Behavioral Sciences Biology

Etologi

Understanding Environmental and Anthropogenic Drivers of Lemur Health in Madagascar: The Importance of a One Health Perspective

Barrett, Meredith Ann

January 2011

<p>Anthropogenic effects on ecosystems have expanded in their scope and intensity, with significant consequences for global environmental, wildlife and human health. As human encroachment into wildlife habitat grows, habitat degradation and fragmentation intensify, leading to increased contact among wildlife, humans and domestic animals. Due to this increasing frequency of interaction, and the emergence of several high-profile diseases, global concern has grown over the risk of emerging infectious disease from zoonotic origins. </p><p>Due to Madagascar's rampant rate of human population growth and deforestation, its incredible species diversity, the widespread presence of domestic and invasive species, and its evolutionary isolation, it can be viewed as a high risk region for potential disease emergence. There is a need for assessment of the zoonotic and reverse zoonotic disease potential within this country. </p><p>To contribute to this assessment, consistent baseline health monitoring provides an effective tool for evaluating wildlife health and preparing for future disease occurrences. Limited, disconnected surveys of lemur health have occurred, yet there remained a need for more extensive, country-wide evaluations that also addresses invasive species, domestic animal and human health, as well shifting patterns of environmental and climatic change. </p><p>This research has investigated the connections among human, animal (both domestic and wildlife) and ecosystem health in Madagascar. I have examined current trends in anthropogenically-driven environmental change in Madagascar--including deforestation, illegal logging of precious hardwoods, mining, hunting, and agriculture--and evaluated how this change affects patterns of lemur, domestic animal and human health by evaluating a suite of health measures and parasite prevalence and richness. I have also examined how predicted global climate changes may influence the spatial patterns of lemur parasites and human infectious disease by assessing their shifts in distributions and geographic extent. </p><p>To assess the risk of disease transmission among lemur, domestic animal and human hosts, I have modeled the areas of geographic overlap among these parasites and their hosts and identified high-risk areas for disease emergence using geospatial analysis. This information can help to develop predictive statistical and spatial tools, which can inform both environmental management and public health planning. </p><p>Through this work, I have evaluated the severe loss of distribution that rosewood species have undergone, which highly qualifies them for international trade protection. We predicted areas of high risk for future logging, many of which occurred within protected areas in the biodiverse northeast. </p><p>Secondly, I have compiled the most comprehensive record of parasites of lemurs to date. Building upon the Prosimian Biomedical Survey Project data and the published literature, we have recorded 88 parasites that have been documented in lemurs. These are composed of helminths, bacteria, ectoparasites and protozoa. Of the 23 focal parasite species studied more in depth in this study, we noted high variability in prevalence measures for unique parasites at different sites. Parasite coinfection occurred quite commonly, with up to as many as 7 parasites concurrently. On average, lemur parasites tend to be less species-, genus-, or family-specific than other parasites across all primates. </p><p>Thirdly, I documented highly significant differences in health measures from two populations of Indri that exist under differing levels of anthropogenic pressure. Of note, the parasite richness, leukocyte count and differential, and nickel and cobalt levels were significantly higher in the more exposed population, while the total protein measures were significantly lower. These data suggest that the exposed population experiencing more anthropogenic pressure suffered from elevated health and nutritional stress. </p><p>Fourthly, I have documented strong correlations among environmental drivers (temperature, precipitation and landscape-scale features) and lemur parasite distributions. Striking shifts in their distributions are predicted to occur with projected climate change in Madagascar, including an expansion of helminth, virus and ectoparasite distributions, but a contraction of bacteria distributions due to warming and drying in the south. </p><p>Fifthly, I have examined 10 human and domestic animal parasites that hold great consequence for lemur, human and domestic animal health in Madagascar. I have similarly demonstrated strong correlations among environmental drivers (temperature, precipitation and landscape-scale features) and the distributions of these human parasites. Shifts in the distributions are also predicted to occur with projected climate change, including an expansion of helminth parasites, and a contraction of viruses and bacteria due to warming and drying in the south. I have identified areas of high risk for the transmission of parasites from human hosts to lemurs, as well as conversely from lemur hosts to humans. These risk indices will serve to highlight geographic areas at particular risk, and will also help to direct limited funds and staff to those areas most in need of attention. </p><p>Sixthly, I have demonstrated a need to train a growing cadre of One Health professionals from many different disciplines. I have offered several suggestions to integrate One Health training into graduate education, and have identified several geographic regions of potential to be a Center of One Health Excellence, of which the North Carolina Triangle area is one of great promise.</p> / Dissertation

Ecology

Health Sciences

Environmental Studies

conservation

global health

lemur

Madagascar

One Health

zoonotic disease

Determinants of the Adult Microbiome: Kinship, Dispersal, and Social Relationships

Diakiw, Laura Oksana, Diakiw, Laura Oksana

January 2017

Primates who disperse from their natal group may shape their adult stable gut microbiome through physical contact and shared environments with their new group members. However, it is possible that individuals retain the dominant microbiome composition that they developed as an infant in their natal group even after joining their new group, due to a combination of genetic inheritance and exposure to their natal group environment. Microbial exposure during early life, before an immune system has been developed, can exert strong selection on a developing individual, in effect creating a selection bottleneck. Therefore, the environmental signals transmitted from mother to infant are critical in developing an infant’s immunocompetence. Determining what adaptations take place in an individual’s gut microbiota during their life could help determine the maternal importance of gut microbe transmissions which may be essential to the evolutionary success of a species. We studied Eulemur rubriventer (red-bellied lemurs) who live in family groups. We tested whether individuals now living in different social groups as adults overlap in microbe composition, and if areas of overlap are distinct compared with unrelated individuals. We also tested whether the gut microbiomes of co-residents (dispersed adult group-mates) would be more similar than that of individuals living in different groups. Using census and genetic data, we determined the social group membership and relatedness of 15 individuals in Ranomafana National Park, Madagascar. Quantitative real-time PCR and Microbial 16S ribosomal RNA gene sequencing indicated that E. rubriventer kinship accounted for just 2.4% of variability in gut microbiome diversity. Our findings indicate that host adult social group explained 25% of the variation in composition of E. rubriventer microbiomes. Additional research incorporating an increased sample size to include additional kin dyads is necessary to fully understand the influence of genetic kinship and early life colonization on the GI microbiome. If initial microbial colonizing species are retained in adults, this demonstrates that early life colonization can persist through adulthood and perhaps preserve important microbial species across larger evolutionary time scales.

Development

Genetic Kinship

Gut microbiome

Primates

Red-bellied lemur

Social relationships

Närmaskbestämning från stereoseende / Ranging from stereovision

Hedlund, Gunnar

January 2005

<p>Detta examensarbete utreder avståndsbedömning med hjälp av bildbehandling och stereoseende för känd kamerauppställning.</p><p>Idag existerar ett stort antal beräkningsmetoder för att få ut avstånd till objekt, men metodernas prestanda har knappt mätts. Detta arbete tittar huvudsakligen på olika blockbaserade metoder för avståndsbedömning och tittar på möjligheter samt begränsningar då man använder sig av känd kunskap inom bildbehandling och stereoseende för avståndsbedömning. Arbetet är gjort på Bofors Defence AB i Karlskoga, Sverige, i syfte att slutligen användas i ett optiskt sensorsystem. Arbetet utreder beprövade</p><p>Resultaten pekar mot att det är svårt att bestämma en närmask, avstånd till samtliga synliga objekt, men de testade metoderna bör ändå kunna användas punktvis för att beräkna avstånd. Den bästa metoden bygger på att man beräknar minsta absolutfelet och enbart behåller de säkraste värdena.</p>

mask

närmask

stereoseende

datorseende

bildbehandling

lemur

disparitet

cvl

bofors

kamera

Image analysis

Bildanalys

The Anatomy of Mastication in Extant Strepsirrhines and Eocene Adapines

Perry, Jonathan Marcus Glen

25 April 2008

The jaw adductor muscles in strepsirrhines were dissected and their fiber architecture was quantified. Bite force and leverage were estimated using values for physiological cross-sectional area (PCSA) of the jaw adductors and lateral photographs of skulls. Jaw adductor mass, PCSA, fiber length, and bite force scale isometrically to body size. An experiment carried out at the Duke Lemur Center demonstrated that ingested food size also scales isometrically to body size. Folivorous strepsirrhines are characterized by short jaw adductor fibers, uniformly small ingested food size, large masseter and medial pterygoid muscles (in PCSA and mass), and large estimated bite force for their jaw length. Large-bodied folivores have especially large jaw adductors. Small-bodied folivores have especially short jaws, but do not have especially large jaw adductors. Folivores probably can generate large bite forces; they possess short jaws (short bite load arms) and/or large jaw adductor cross-sectional areas. Frugivorous strepsirrhines are characterized by long jaws, large (but variable) ingested food size, large temporalis muscles, and small estimated bite force for their jaw length. Frugivores have long jaw adductor fibers that likely maintain tension during the ingestion of large objects (e.g., fruits). The temporalis is large in frugivores, not because it has superior leverage during incision, but because its fibers likely do not stretch as much at wide gapes as those of the other adductors. Correlations between osteological landmarks and jaw adductor dimensions in strepsirrhines were used to infer jaw adductor dimensions in <em>Adapis parisiensis</em> and <em>Leptadapis magnus</em> (Adapinae) from the Eocene of Europe. Inferred PCSA and lateral photographs were used to estimate bite force and leverage in these adapines. An analysis of shearing quotients was also performed. Inferred jaw adductor mass, PCSA, bite force, and shearing quotients are great in adapines relative to extant strepsirrhines. All anatomical signals suggest a diet rich in tough leaves and other structural plant parts, perhaps with some small fruits. <em>Adapis</em> was likely more folivorous than <em>Leptadapis</em>. / Dissertation

Anthropology, Physical

Paleontology

Biology, Anatomy

mastication

strepsirrhine

adapid

ingestion

lemur

adaptation